SEMPRE: spectral editing mediated by paramagnetic relaxation enhancement.

Paramagnetic relaxation enhancement (PRE) has become a useful and widely applied tool in biomolecular NMR spectroscopy. In particular investigations of large complexes or transient contacts benefit from PRE effects. Frequently such studies involve modification of the biomacromolecules under study. We here present a method for editing NMR spectra by utilizing a soluble gadolinium complex that broadens nuclear spins being at or close to the macromolecule-solvent interface. NOE signals in NOESY spectra are selectively attenuated if surface exposed nuclear spins are involved. HSQC-type spectra with paramagnetic agent contain only signals of the interior of the protein, while the corresponding difference spectra harbor signals allocated to surface spins. Thus, the number of signals can be reduced helping to minimize spectral overlap in large proteins. The method reveals additional information about the localization of spins being helpful for structure determination of large complexes.

Fast mapping of biomolecular interfaces by Random Spin Labeling (RSL).

Random spin labeling (RSL) is a method for rapid mapping of biomolecular interaction surfaces using an interaction partner with SL and an interaction partner enriched in (13)C or (15)N nuclei for paramagnetic relaxation enhanced NMR-based detection. The SL reaction is conducted in a manner resulting in a heterogeneous reaction product consisting of different populations of the protein carrying a varying number of spin labels at different positions. Preparation of the paramagnetic probe is complete within a few hours and hence much faster than site selective SL. RSL is applicable to tightly interacting systems but shows its particular strength when applied to systems involving weak or transient contacts.